In productio duplici sheet ffoyle,aluminium ffoyleRolling est split in tres processus: aspera volvens, medio volvens et consummatione volubilem. De sententia ad modum, ut sit dure dividitur a volubilem exit crassitudine. In altiore genere est quod exit crassitudine est maior quam vel capaces 0.05mm enim aspera volvens, et ideo exit crassitudine inter 0.013 et 0.05 in medio volvens. Finitoque sheet et duplex advolvit products cum outlet crassitiem sed 0.013mm sunt perfecta volubilem. Et volvens characteres aspera-advolvit aluminium laminam et habena sunt similes. In crassitudine control maxime pendeat in volubilem vi et post, tensio. In crassitudine aspera-advolvit processus rate est maxime parva.
(I) Aluminium laminam et habena volubilem. Creare aluminium habena tenuis maxime pendeat in volubilem vim, quod automatic control modus laminam crassitudine innititur in potestate modus constanti volumine gap quia pelagus AG. Utrum vel non volvitur vi mutationes, adjust in volumine gap in omni tempore manere a specifica valorem de volumine gap, cum habena cum identical crassitudine est adeptus. In rolling foil to finishing, thanks to the thickness of thin tin foil, rolling, increasing rolling force, make the rolls elastic deformation is less complicated than being rolled material to provide plastic deformation, the elastic flattening of roll cannot be ignored, roll play flattening determines the foil rolling, rolling force has been but like mill role, aluminum foil rolling is usually rolled without roll gap under constant pressure, and therefore the temperatio de stagni ffoyle crassitudine maxime pendent in adaequatum tensionem et volvens celeritate.
(II) Pack volvens. For the thickness of but 0.012mm(thickness size and therefore the diameter of the work roll) of tin foil, thanks to the elastic flattening of the roll, with one rolling method is incredibly difficult, therefore the use of double rolling method, that is, two pieces of foil with oil within the middle, then together rolling method (also referred to as rolling). Laminated volvens non solum volvunt aluminium ffoyle quod non potest produci per unum sheet volvens, sed etiam reducere moles fractum balteus, meliorem laborem productivity, usura is processus potest producere 0.006mm ~ 0.03mm unum lucem aluminium ffoyle.
(III) celeritate effectus. Per aluminium ffoyle volvens, in phaenomenon quod ffoyle crassitudo decrescit cum incremento volvens ratio dicitur velocitas effectus. Et ratio de mechanism celeritas effectus manet, ut sit ultra studied. Explicationes ad celeritatem effectus sunt plerumque considerari ut sequitur:
I) De friction statum inter opus volumine et ergo advolvit materiam mutationes. Cum ortum de volvente celeritate, numerus uncto augetur, ita et lubricatae statu inter volumine et ideo advolvit materiam mutationes. Quia friction coefficienti decrescit, et oleum film thickens et quoque crassitudine ffoyle decrescit.
II) mutationes intra molendini ipsum. In volvere mola cum cylindrici gestus, quia volvens celeritate crescit, cylindro collum et supernatet in afferentem, ita II scutulis sub commercium movebo in directionem ad invicem.
III) in processus mollit et fabricae cum suus 'deformis volubilem. Et Rolling celeritate summus celeritas ffoyle molendini est maxime princeps. Cum autem ortum de volubilem celeritate, temperatus de volubilem deformatio zonam crescit. Per calculation, in metallum temperatus in deformatio zona potest oriri ad CC ℃, quod est simile est medium recuperatio annales, ita causando processui mollit Phaenomenon volvitur materia.
Post tempus: Ian-04-2022